transmuxer.js
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/**
* video-js-hls
*
* Copyright (c) 2014 Brightcove
* All rights reserved.
*/
/**
* A stream-based mp2t to mp4 converter. This utility is used to
* deliver mp4s to a SourceBuffer on platforms that support native
* Media Source Extensions. The equivalent process for Flash-based
* platforms can be found in segment-parser.js
*/
(function(window, videojs, undefined) {
'use strict';
var PacketStream, ParseStream, ProgramStream, Transmuxer, MP2T_PACKET_LENGTH, H264_STREAM_TYPE, ADTS_STREAM_TYPE, mp4;
MP2T_PACKET_LENGTH = 188; // bytes
H264_STREAM_TYPE = 0x1b;
ADTS_STREAM_TYPE = 0x0f;
mp4 = videojs.mp4;
/**
* Splits an incoming stream of binary data into MP2T packets.
*/
PacketStream = function() {
var
buffer = new Uint8Array(MP2T_PACKET_LENGTH),
end = 0;
PacketStream.prototype.init.call(this);
/**
* Deliver new bytes to the stream.
*/
this.push = function(bytes) {
var remaining, i;
// clear out any partial packets in the buffer
if (end > 0) {
remaining = MP2T_PACKET_LENGTH - end;
buffer.set(bytes.subarray(0, remaining), end);
// we still didn't write out a complete packet
if (bytes.byteLength < remaining) {
end += bytes.byteLength;
return;
}
bytes = bytes.subarray(remaining);
end = 0;
this.trigger('data', buffer);
}
// if less than a single packet is available, buffer it up for later
if (bytes.byteLength < MP2T_PACKET_LENGTH) {
buffer.set(bytes.subarray(i), end);
end += bytes.byteLength;
return;
}
// parse out all the completed packets
i = 0;
do {
this.trigger('data', bytes.subarray(i, i + MP2T_PACKET_LENGTH));
i += MP2T_PACKET_LENGTH;
remaining = bytes.byteLength - i;
} while (i < bytes.byteLength && remaining >= MP2T_PACKET_LENGTH);
// buffer any partial packets left over
if (remaining > 0) {
buffer.set(bytes.subarray(i));
end = remaining;
}
};
};
PacketStream.prototype = new videojs.Hls.Stream();
/**
* Accepts an MP2T PacketStream and emits data events with parsed
* forms of the individual packets.
*/
ParseStream = function() {
var parsePsi, parsePat, parsePmt, parsePes, self;
ParseStream.prototype.init.call(this);
self = this;
this.programMapTable = {};
parsePsi = function(payload, psi) {
var offset = 0;
// PSI packets may be split into multiple sections and those
// sections may be split into multiple packets. If a PSI
// section starts in this packet, the payload_unit_start_indicator
// will be true and the first byte of the payload will indicate
// the offset from the current position to the start of the
// section.
if (psi.payloadUnitStartIndicator) {
offset += payload[offset] + 1;
}
if (psi.type === 'pat') {
parsePat(payload.subarray(offset), psi);
} else {
parsePmt(payload.subarray(offset), psi);
}
};
parsePat = function(payload, pat) {
pat.section_number = payload[7];
pat.last_section_number = payload[8];
// skip the PSI header and parse the first PMT entry
self.pmtPid = (payload[10] & 0x1F) << 8 | payload[11];
pat.pmtPid = self.pmtPid;
};
/**
* Parse out the relevant fields of a Program Map Table (PMT).
* @param payload {Uint8Array} the PMT-specific portion of an MP2T
* packet. The first byte in this array should be the table_id
* field.
* @param pmt {object} the object that should be decorated with
* fields parsed from the PMT.
*/
parsePmt = function(payload, pmt) {
var tableEnd, programInfoLength, offset;
pmt.section_number = payload[6];
pmt.last_section_number = payload[7];
// PMTs can be sent ahead of the time when they should actually
// take effect. We don't believe this should ever be the case
// for HLS but we'll ignore "forward" PMT declarations if we see
// them. Future PMT declarations have the current_next_indicator
// set to zero.
if (!(payload[5] & 0x01)) {
return;
}
// overwrite any existing program map table
self.programMapTable = {};
// the mapping table ends right before the 32-bit CRC
tableEnd = payload.byteLength - 4;
// to determine where the table starts, we have to figure out how
// long the program info descriptors are
programInfoLength = (payload[10] & 0x0f) << 8 | payload[11];
// advance the offset to the first entry in the mapping table
offset = 12 + programInfoLength;
while (offset < tableEnd) {
// add an entry that maps the elementary_pid to the stream_type
self.programMapTable[(payload[offset + 1] & 0x1F) << 8 | payload[offset + 2]] = payload[offset];
// move to the next table entry
// skip past the elementary stream descriptors, if present
offset += ((payload[offset + 3] & 0x0F) << 8 | payload[offset + 4]) + 5;
}
// record the map on the packet as well
pmt.programMapTable = self.programMapTable;
};
parsePes = function(payload, pes) {
var ptsDtsFlags;
if (!pes.payloadUnitStartIndicator) {
pes.data = payload;
return;
}
// find out if this packets starts a new keyframe
pes.dataAlignmentIndicator = (payload[6] & 0x04) !== 0;
// PES packets may be annotated with a PTS value, or a PTS value
// and a DTS value. Determine what combination of values is
// available to work with.
ptsDtsFlags = payload[7];
// PTS and DTS are normally stored as a 33-bit number. Javascript
// performs all bitwise operations on 32-bit integers but it's
// convenient to convert from 90ns to 1ms time scale anyway. So
// what we are going to do instead is drop the least significant
// bit (in effect, dividing by two) then we can divide by 45 (45 *
// 2 = 90) to get ms.
if (ptsDtsFlags & 0xC0) {
// the PTS and DTS are not written out directly. For information
// on how they are encoded, see
// http://dvd.sourceforge.net/dvdinfo/pes-hdr.html
pes.pts = (payload[9] & 0x0E) << 28
| (payload[10] & 0xFF) << 21
| (payload[11] & 0xFE) << 13
| (payload[12] & 0xFF) << 6
| (payload[13] & 0xFE) >>> 2;
pes.pts /= 45;
pes.dts = pes.pts;
if (ptsDtsFlags & 0x40) {
pes.dts = (payload[14] & 0x0E ) << 28
| (payload[15] & 0xFF ) << 21
| (payload[16] & 0xFE ) << 13
| (payload[17] & 0xFF ) << 6
| (payload[18] & 0xFE ) >>> 2;
pes.dts /= 45;
}
}
// the data section starts immediately after the PES header.
// pes_header_data_length specifies the number of header bytes
// that follow the last byte of the field.
pes.data = payload.subarray(9 + payload[8]);
};
/**
* Deliver a new MP2T packet to the stream.
*/
this.push = function(packet) {
var
result = {},
offset = 4;
// make sure packet is aligned on a sync byte
if (packet[0] !== 0x47) {
return this.trigger('error', 'mis-aligned packet');
}
result.payloadUnitStartIndicator = !!(packet[1] & 0x40);
// pid is a 13-bit field starting at the last bit of packet[1]
result.pid = packet[1] & 0x1f;
result.pid <<= 8;
result.pid |= packet[2];
// if an adaption field is present, its length is specified by the
// fifth byte of the TS packet header. The adaptation field is
// used to add stuffing to PES packets that don't fill a complete
// TS packet, and to specify some forms of timing and control data
// that we do not currently use.
if (((packet[3] & 0x30) >>> 4) > 0x01) {
offset += packet[offset] + 1;
}
// parse the rest of the packet based on the type
if (result.pid === 0) {
result.type = 'pat';
parsePsi(packet.subarray(offset), result);
} else if (result.pid === this.pmtPid) {
result.type = 'pmt';
parsePsi(packet.subarray(offset), result);
} else {
result.streamType = this.programMapTable[result.pid];
result.type = 'pes';
parsePes(packet.subarray(offset), result);
}
this.trigger('data', result);
};
};
ParseStream.prototype = new videojs.Hls.Stream();
ParseStream.STREAM_TYPES = {
h264: 0x1b,
adts: 0x0f
};
/**
* Reconsistutes program stream packets from multiple transport stream packets.
*/
ProgramStream = function() {
var
// PES packet fragments
video = {
data: [],
size: 0
},
audio = {
data: [],
size: 0
},
flushStream = function(stream, type) {
var
event = {
type: type,
data: new Uint8Array(stream.size)
},
i = 0,
fragment;
// do nothing if there is no buffered data
if (!stream.data.length) {
return;
}
// reassemble the packet
while (stream.data.length) {
fragment = stream.data.shift();
event.data.set(fragment.data, i);
i += fragment.data.byteLength;
}
stream.size = 0;
self.trigger('data', event);
},
self;
ProgramStream.prototype.init.call(this);
self = this;
this.push = function(data) {
({
pat: function() {
// we have to wait for the PMT to arrive as well before we
// have any meaningful metadata
},
pes: function() {
var stream, streamType;
if (data.streamType === H264_STREAM_TYPE) {
stream = video;
streamType = 'video';
} else {
stream = audio;
streamType = 'audio';
}
// if a new packet is starting, we can flush the completed
// packet
if (data.payloadUnitStartIndicator) {
flushStream(stream, streamType);
}
// buffer this fragment until we are sure we've received the
// complete payload
stream.data.push(data);
stream.size += data.data.byteLength;
},
pmt: function() {
var
event = {
type: 'metadata',
tracks: []
},
programMapTable = data.programMapTable,
k,
track;
// translate streams to tracks
for (k in programMapTable) {
if (programMapTable.hasOwnProperty(k)) {
track = {};
track.id = +k;
if (programMapTable[k] === H264_STREAM_TYPE) {
track.codec = 'avc';
} else if (programMapTable[k] === ADTS_STREAM_TYPE) {
track.codec = 'adts';
}
event.tracks.push(track);
}
}
self.trigger('data', event);
}
})[data.type]();
};
/**
* Flush any remaining input. Video PES packets may be of variable
* length. Normally, the start of a new video packet can trigger the
* finalization of the previous packet. That is not possible if no
* more video is forthcoming, however. In that case, some other
* mechanism (like the end of the file) has to be employed. When it is
* clear that no additional data is forthcoming, calling this method
* will flush the buffered packets.
*/
this.end = function() {
flushStream(video, 'video');
flushStream(audio, 'audio');
};
};
ProgramStream.prototype = new videojs.Hls.Stream();
Transmuxer = function() {
var self = this, packetStream, parseStream, programStream;
Transmuxer.prototype.init.call(this);
// set up the parsing pipeline
packetStream = new PacketStream();
parseStream = new ParseStream();
programStream = new ProgramStream();
packetStream.pipe(parseStream);
parseStream.pipe(programStream);
// generate an init segment
this.initSegment = mp4.initSegment();
programStream.on('data', function(data) {
self.trigger('data', data);
});
// feed incoming data to the front of the parsing pipeline
this.push = function(data) {
packetStream.push(data);
};
// flush any buffered data
this.end = programStream.end;
};
Transmuxer.prototype = new videojs.Hls.Stream();
window.videojs.mp2t = {
PAT_PID: 0x0000,
MP2T_PACKET_LENGTH: MP2T_PACKET_LENGTH,
H264_STREAM_TYPE: H264_STREAM_TYPE,
ADTS_STREAM_TYPE: ADTS_STREAM_TYPE,
PacketStream: PacketStream,
ParseStream: ParseStream,
ProgramStream: ProgramStream,
Transmuxer: Transmuxer
};
})(window, window.videojs);